R-107 Helical gear units can output up to 4300 Nm (depends on ratio) Calculate your machine and find the required gearbox output torque using this tool Engineering Calculator Horizontal TabsOverview Performance data: Transmission ratios: 4.92:1 to 251.15:1 Efficiency Up to 97% Input motor flanges: For IEC motors and servomotors Output shaft: Solid Smooth Output Shaft with Key Versions: Flange mounted Foot mounted Typical Applications: Cement and Mining Chemical and Paper Industry Conveyors Cranes and Construction Machinery Food and Beverages Metalworking machines Pumps and Compressors Water Treatment Woodworking Machines R Helical gear units have the following advantages: Carburized, case hardened, and ground gears, offering greater reliability and longer service life. Compact design Excellent reliability Intermittent and continuous operation ATEX standard requirements Optional NSF H1 certified food grade lubrication For any mounting position Specifications Ratio n1N n1Max T2N1 T2Max2 T2E3 F2RMax J C Δφ η M (rpm) (rpm) (N·m) (N·m) (N·m) (N) (Kg·cm2) (Nm/arcmin) (arcmin) % (Kg) 4.92 1400 3197 2900 3820 4930 11300 144.0 208 9 97 160-216 5.82 1400 3597 2970 3820 5040 12100 108.0 208 9 97 160-216 6.66 1400 3924 2970 3820 5040 12800 88.0 208 9 97 160-216 7.86 1400 4378 2970 3820 5040 13800 70.0 208 9 97 160-216 8.56 1400 3197 4300 4360 7310 11300 129.0 250 7 97 160-216 10.13 1400 3597 4300 4360 7310 12400 97.0 250 7 97 160-216 11.59 1400 3924 4300 4360 7310 13300 80.0 250 7 97 160-216 13.66 1400 4378 4300 4360 7310 14400 64.0 250 7 97 160-216 15.65 1400 4500 4300 4360 7310 15400 52.0 250 7 97 160-216 18.21 1400 4500 4300 4360 7310 16600 43.0 250 7 97 160-216 20.07 1400 4500 4300 4360 7310 17300 37.0 250 7 97 160-216 22.62 1400 4500 4300 4360 7310 18300 31.0 250 7 97 160-216 24.90 1400 4500 4300 4360 7310 19200 27.0 250 7 97 160-216 27.58 1400 4500 4300 4360 7310 20100 21.0 250 7 97 160-216 30.77 1400 4500 4300 4360 7310 21100 18.0 250 7 97 160-216 29.49 1400 3924 4300 4360 7310 20700 60.0 259 7 95 170-226 35.26 1400 4378 4300 4360 7310 22400 47.0 259 7 96 170-226 40.37 1400 4500 4300 4360 7310 23800 38.0 259 7 96 170-226 47.63 1400 4500 4300 4360 7310 25500 31.0 259 7 96 170-226 52.68 1400 4500 4300 4360 7310 26600 27.0 259 7 96 170-226 59.41 1400 4500 4300 4360 7310 28000 22.0 259 7 96 170-226 65.60 1400 4500 4300 4360 7310 29200 19.0 259 7 96 170-226 72.88 1400 4500 4300 4360 7310 29500 17.0 259 7 96 170-226 78.57 1400 4500 4300 4360 7310 29500 34.0 260 7 95 170-226 92.70 1400 4500 4300 4360 7310 29500 28.0 260 7 95 170-226 102.53 1400 4500 4300 4360 7310 29500 25.0 260 7 95 170-226 115.63 1400 4500 4300 4360 7310 29500 20.0 260 7 95 170-226 127.68 1400 4500 4300 4360 7310 29500 18.0 260 7 95 170-226 141.83 1400 4500 4300 4360 7310 29500 15.0 260 7 95 170-226 158.68 1400 4500 4300 4360 7310 29500 13.0 260 7 95 170-226 172.34 1400 4500 4300 4360 7310 29500 12.0 260 7 95 170-226 203.16 1400 4500 4300 4360 7310 29500 9.2 260 7 94 170-226 229.95 1400 4500 4300 4360 7310 29500 5.9 260 7 94 170-226 251.15 1400 4500 4300 4360 7310 29500 5.1 260 7 94 170-226 (1) T2N value is calculated at n1n, continuous duty cycle, uniform operation, KA=1 and unlimited theoretical life time as per ISO-6336 (NL>N00 in the Woehler line). The application factor KA according to DIN-3990-1 must be considered for each duty cycle and machine type. (2) T2Max only for very short time intervals(3) Up to 1000 times during the gearbox's lifetime Dimensions